SE512755C2 - Illuminated display unit and method of manufacturing the same - Google Patents

Abstract

An illuminated display unit (10) comprising a light guide (20) in the form of a plate, one or more light sources (100) and also one or more recesses (80, 90) arranged along at least a first edge (110) of the light guide (20). The light guide (20) has a first side (60) which faces towards an observer and also a second side (30) which faces away from an observer. The light sources (100) are connected to the light guide (20) by the light sources (100) being mounted in the recess(es) (80, 90). The edges (121, 122, 123) of the light guide are coated with reflective material. The light guide (20) also comprises a matted surface (35) arranged on the second side (30) of the light guide. The display unit (10) has a reflective layer (40) arranged on the matted surface (35) of the second side (30) of the light guide. A transparent information carrier (70) may be arranged on the first side (60) of the light guide (20).

Description

15 20 25 30 35 512 755 2 larger surface of the light guide can therefore be very uneven.

BACKGROUND OF THE INVENTION: It is therefore a general object of the present invention to provide a device which by a simple construction provides an improved light scattering over a relatively large area of a light conducting plate by increasing the control over where and in which direction light is reflected out of the light guide. .

This object is achieved according to the present invention by the display unit according to claim 1.

Preferred embodiments of the present invention are described in the subclaims.

BRIEF DESCRIPTION OF THE DRAWINGS: The invention will be more fully illustrated below by way of descriptive example and with reference to the accompanying figures, in which: Fig. 1 is a schematic perspective view of a display unit according to the present invention; Fig. 2 is a schematic, partially cut-away, plan view of a part of the display unit according to Fig. 1; Figs. 3A and 3B are schematic perspective views of two different embodiments of depressions in a light guide according to the present invention, and Fig. 4 is a schematic plan view of a light guide according to the invention showing the location of the light sources.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS: Fig. 1 shows a display unit 10 according to the present invention. the display unit comprises a light guide 20, advantageously designed as a thin rectangular plate. To prevent light emission in the edges of the light guide 121, 122, 123 and to increase the reflection in the light guide 20, the edges 121, 122, 123 of the light guide are coated with reflective layers.

The light guide 20, and thus the entire display unit 10, can be made very thin, a typical value being 12 mm thick.

On a first side 60 of the light guide, in this case defined as the side which is to be considered when using the display unit 10 and which is thus to show some form of information, an information carrier 70 is arranged which is illuminated by light from the light guide 20.

The information carrier 70 may be a transparent or opaque foil with varying contrast patterns, a screen printed pattern or the like. If the light is to be partially colored, e.g. when reproducing pictograms, a transparent or opaque colored layer is advantageously applied to the parts of the surface of the light guide which are to reproduce colored light. This layer thus acts as a colored filter.

Fig. 2 shows a cross-section of a display unit 10 according to Fig. 1.

According to Figs. 3A, 3B and 4, light sources 100 are arranged along a first edge 110 of the light guide 20. The light sources are arranged in one or more depressions 80, 90 which are for example drilled or milled directly in the light guide 20, the lighting is thus lateral into the light guide. A number of monochrome light sources 100 are thus arranged in a recess 80, 90, the emitted light from each of the light sources being mixed by reflection in the light guide to a light which is perceived as white by a viewer's eye.

This light is then passed further into the light guide 20.

According to the invention, the surface 35 of a second side is matted by the light guide, defined as the side which is attached to the first side 60 of the light guide. This is shown in Figs. 1 and 2.

This matte surface 35 makes it possible to reflect the light at the desired location in the light guide 20 and in the desired direction from the light guide. The matting takes place either mechanically, e.g. by grinding or applying a matte layer, or chemically, e.g. by etching.

Through the nighting, the reflection angle of the light waves will be refracted sufficiently to enable a control of the light in the desired direction and extent. This means that the light scattering over the entire surface of the light guide 20 can become more uniform. Sufficient diffusion is achieved in the matte surface 35 of the other side 30 of the light guide so that an even white light is reproduced without diffusion in further layers being required. However, a diffusing layer can be applied to the light guide if necessary. The exposed color is thus controlled by the wavelength or mixture of wavelengths of the monochrome light sources 100.

The other side 30 of the light guide is then covered by a fully reflective layer 40, e.g. a mirror or a white painted disc.

The light sources 100, preferably wide beam light emitting diodes in 3 to 4 different wavelengths (eg blue / green, yellow and red), are advantageously supplied with high voltage directly from the mains (not shown in Fig.). The diodes are connected in series and supplied with a limited current. This method gives a lower energy consumption than the alternative method where either each diode is fed separately, i.e. connected in parallel with the other diodes, whereby the mains voltage must be transformed down, or where the diodes are arranged in bundles which are mutually constituted by diodes but where the different bundles are connected in parallel to the mains voltage and this voltage also in this case must be transformed down.

A display unit according to the invention is characterized by extremely low energy consumption, typical value is between 0.8 and 1.5 W which can be compared with conventional technology where fluorescent lamps are used which have an energy consumption of 15 to 20 W. Also the uniformity in brightness measured over the entire luminous the sign surface is very good, a typical value is a ratio of 3: 4 between the side which is located furthest from the light sources and the side which is closest to the light sources. In addition. the unit is maintenance free for a very long time, longer than 10 years is to be expected. A display unit according to the invention also meets all the requirements of PREN 1838 which are relevant for the design and application.

It is to be understood that the present invention is not limited to the embodiments described above and which are shown in the accompanying figures, but may instead be varied within the scope of the appended claims. For example, a double-sided display unit is conceivable where the reflector layer on the back of the single-sided sign is emitted and a layer which reflects some of the light inwards towards the light guide and diffuses the rest of the light away from the light guide is applied either on the same side as the matt surface of the light guide or on the opposite side of the light guide. An embodiment with battery backup is also conceivable, where the display unit during battery operation is then supplied with a controlled voltage i.st.f. controlled current.

Claims (4)

10 15 20 25 30 35 512 755 CLAIMS: An illuminated display unit (10) comprising a light guide (20) in the form of a plate, a first side (60) of the light guide (20) which first side (60) faces a viewer, a second side (30) of the light guide (20) which second side (60) faces from a viewer, one or more light sources (100), one or more depressions (80, 90) arranged along at least a first edge (110) of said light guide (20), where said light sources (100) are connected to said light guide (20) in that the light sources (100) are mounted in said recesses (80, 90), and where the edges (121, 122, 123) of said light guide are coated with reflective material, characterized by that said display unit (10) comprises a matted surface (35) arranged on said second side (30) of the light guide, and a reflective layer (40) arranged on said matted surface (35) of said second side (30) of said light guide (20) . A display unit according to claim 1, characterized in that said light sources (100) radiate light-emitting diodes in 3 to 4 different wavelengths. includes A display unit according to any one of claims 1-2, characterized in that said display unit (10) comprises a transparent information carrier (70) arranged on said first side (60) of said light guide (20). 512 755 7 A method of manufacturing a display unit according to any one of claims 1-3, characterized in that said second side (30) of said light guide (20) is treated by either mechanical or chemical processing to provide said matte surface (35) of other side (30) of the light guide (20).